Evolution of quantum correlations of two qubits in a cavity with biphotonic dissipation

Evolution of quantum correlations of two qubits in a cavity with biphotonic dissipation

In this work we study the evolution of quantum correlations in a Tavis-Cummings model that consists of two qubits and a single quantized mode of the electromagnetic field. The processes of emission / absorption of a single photon and of two correlated photons are considered for each of the qubits. T...

Full description

Bibliographic Details
Main Authors: Molinares Garrido, Hugo Andrés, Villamil Barrios, Pablo Emilio, Eremeev, Vitalie
Format: Online
Language:spa
Published: Universidad Pedagógica y Tecnológica de Colombia 2018
Subjects:
Correlaciones cuánticas
modelo Tavis - Cummings
ecuación maestra Lindblad
disipación unifotónica
disipación bifotónica
Mecánica cuántica
Quantum correlations
Tavis - Cummings model
Lindblad master equation
unifotonic dissipation
biphotonic dissipation
Quantum Mechanic
Online Access:https://revistas.uptc.edu.co/index.php/ciencia_en_desarrollo/article/view/8411
Description
Summary:In this work we study the evolution of quantum correlations in a Tavis-Cummings model that consists of two qubits and a single quantized mode of the electromagnetic field. The processes of emission / absorption of a single photon and of two correlated photons are considered for each of the qubits. The model is studied taking into account unifotonic and biphotonic dissipations, through a cavity that interacts with a thermal reservoir. The numerical solution of a Lindblad master equation allows us to make a description of the evolution of quantum correlations, quantum entanglement and quantum discord, as a function of time for an atomic state type superposition. It is shown that the different results of the quantum correlations present qualitatively different behaviors in their evolution.